Influence of diuresis on enzymuria

Urinary excretion of renal brush border enzymes may serve as an early marke r of renal injury. However, the distinction between physiological and patho logical levels remains controversial, since enzymuria is affected by physio logical parameters. To clarify the influence of diuresis, we investigated t he urinary excretion of alanine-aminopeptidase (AAP; EC 3.4.11.2) as functi on of diuretic state. 17 healthy volunteers of both sexes were subjected to protocols with sudden or prolonged water load preceded and followed by a t hirst period. Urinary excretion of AAP was measured using an enzyme kinetic assay. As expected AAP excretion increased with urine flow, the increments diminished yielding an overall excretion pattern that resembled saturation kinetics. This function is described by a mathematical model. This model a ssumes, that AAP is released in proximal tubules at a constant rate and rea bsorbed or inactivated in the distal tubule and collecting duct. Non-linear fits of the model equation to our data allowed two parameters, chi and mu, to be defined. chi describes the rate of AAP release independent of urinar y flow, and mu. the ratio of distal tubular reabsorption or inactivation. I f a substrate is not reabsorbed at all, mu approximates zero. Since mu fitt ed for AAP differed significantly from zero, this indicates reabsorption or inactivation of AAP in the distal nephron. Therefore, our study supports t he theory of flow-dependent reabsorption or inactivation of AAP in the dist al nephron.